Hepatic DNA methylation and liver tumor formation in male C3H mice fed methionine- and choline-deficient diets

The effects of the chronic administration of methyl-deficient, amino acid-defined diets on liver tumor formation were examined in male weanling C3H/HeN mice previously treated with a single ip injection of 0 or 150 mg diethylnitrosamine/kg body weight [(DENA) CAS: 55-18-5]. Five diets were used: diet 1, adequate; diet 2, devoid of both methionine and choline; diet 3, devoid of methionine only; diet 4, devoid of choline only; and diet 5, devoid of methionine, choline, folic acid, and vitamin B12. Equimolar homocystine replaced methionine in all methionine-devoid diets. All diets were administered for 1 year. No hepatocellular carcinomas and only 3 liver adenomas were seen among the 129 animals at risk in the 5 groups that had received no DENA. Among the DENA-treated groups fed diets 1-4, the incidence of hepatocellular carcinomas in the mice at risk averaged 40%, with no significant differences noted among groups. A relatively low incidence of liver carcinomas (10%) was seen among DENA-treated mice subsequently fed diet 5; it could be ascribed to the enhanced mortality seen in these animals due to the dietary deficiencies. Lung tumors were seen in 44% of the DENA-treated mice surviving more than 35 experimental weeks and in only 2.5% of the corresponding DENA-untreated animals. Feeding diet 2, deficient in methionine and choline, to male C3H mice for 5-20 weeks decreased the hepatic ratio of S-adenosylmethionine (CAS: 29908-3-0) to S-adenosylhomocysteine (979-92-0) relative to that observed in mice fed the adequate diet 1. The 5-methyldeoxycytidine [(5-MC) CAS: 838-07-3] contents of liver DNA in animals fed diet 2 for 5, 10, and 20 weeks, however, were not significantly different from the corresponding levels in diet 1-fed mice. The results indicate that a methionine- and choline-deficient dietary regimen that lowers the 5-MC levels in DNA and enhances liver tumor formation in male F344 rats does not do so in male C3H mice.     

Promotion by sodium barbital of renal cortical and transitional cell tumors, but not intestinal tumors, in F344 rats given methyl(acetoxymethyl)nitrosamine, and lack of effect of phenobarbital, amobarbital, or barbituric acid on development of either renal or intestinal tumors

Comparative effects of four barbiturates, phenobarbital (PB),amobarbital (AB), sodium barbital (NaBB), and barbituric acid(BA) on the development of neoplasms in the intestinal tractand other organs were investigated in rats following initiationwith methyl(acetoxymethyl)nitrosamine (DMN.OAc). Four-week-oldF344/NCr male rats were given a single i.p. injection of 0.05nmol DMN·OAc in 5 ml sterile phosphate buffered saline/kgbody weight. Two weeks after DMN·OAc treatment, the animalswere provided with either tap water or drinking water containing500 p.p.m. of PB, NaBB, AB, or BA for the remaining experimentalperiod. Control groups received a single i.p. injection of 5ml of sterile phosphate buffer/kg body weight and 2 weeks laterwere given either tap water or drinking water containing 500p.p.m. of one of the barbiturates listed above. Rats were killedat 52 weeks or 80 weeks after DMN·OAc injection. DMN·OAcinduced multiple intestinal tumors that occurred mostly in themucosa of the small intestine, especially the tenninal ileum.None of the barbiturates had any effect on either incidenceor multiplicity of intestinal tumors. PB significantly enhancedthe development of hepatocellular tumors as well as thyroidfollicular cell neoplasms in DMN·OAc initiated rats,while the subsequent administration of NaBB, but not other barbiturates,resulted in the development of renal cortical and pelvic transitionalcell tumors. This is the first demonstration of promotion ofcarcinogenesis in renal pelvic transitional epithelium, a celltype not previously recognized as vulnerable to initiation byDMN·OAc given i.p. NaBB without prior administrationof DMN·OAc induced severe nephropathy and focal hyperplasiaof both renal cortical tubular and pelvic transitional cellepithelium. No such effects were observed with either PB, AB,or BA. Our results failed to confirm the earlier findings ofothers that intestinal epithelial carcinogenesis could be promotedby continuous oral administration of NaBB. However, these resultsstrongly support and extend our previous conclusions that somebarbiturates have broad organ specificities and promote epithelialcarcinogenesis in more than one organ and tissue.     

Profound postinitiation enhancement by short-term severe methionine, choline, vitamin B12, and folate deficiency of hepatocarcinogenesis in F344 rats given a single low-dose diethylnitrosamine injection

The potential promoting and/or complete carcinogenic activity of a methyl group-deficient (MD) diet lacking methionine, choline, vitamin B12, and folate on liver tumor induction in weanling male F344/NCr rats was examined. Each of 50 rats per group received one injection 20 mg diethylnitrosamine [(DENA) CAS: 55-18-5; N-nitrosodiethylamine]/kg body weight at 4 weeks of age, and then each was maintained on a methyl group-adequate (MA) diet for 52 weeks (groups 2 and 5) or on an MD diet for 15 weeks followed by the MA diet for 37 weeks (group 4). Controls received injections of saline and were maintained on the same two respective diet regimens (groups 1 and 3, respectively). Histologic results from sacrifices at 6, 10, 15, 22, 39, and 52 weeks revealed early development of foci of eosinophilic gamma-glutamyltransferase (GGT)-positive hepatocytes by week 6 in DENA-MD diet-treated rats, with subsequent development of a diffuse hyperplasia of hepatocytes, oval cell proliferation, cholangiofibrosis, nodular cirrhosis, and neoplastic nodule (NN) formation and, at 52 weeks, hepatocellular carcinomas (HCC) in 13 of 15 rats. Similar but significantly fewer lesions were observed at slightly later sacrifice times in the livers of saline-MD diet-treated rats, with development of NN in 5 of 12 rats and an HCC in 1 of 12 rats at 52 weeks. DENA-treated rats on MA diets developed relatively few GGT-positive foci, and none developed any neoplastic lesions. Except for basophilic foci, areas and foci of cellular alteration containing glycogen-rich hepatocytes frequently exhibited diminished uptake of injected iron and decreased glucose-6-phosphatase and ATPase contents focally or throughout. This study indicates that a relatively brief exposure of both untreated and DENA-treated weanling rats to a severely MD diet produces classical preneoplastic and neoplastic lesions in their livers.     

N-Nitroso-N-methylurea initiation in multiple tissues for organ-specific tumor promotion in rats by phenobarbital

Effects of phenobarbital [(PB) CAS: 50-06-6], a systemic tumor promoter, on carcinogenesis initiated by the broad-spectrum carcinogen N-nitroso-N-methylurea [(NMU) CAS: 684-93-5] were investigated in F344/NCr rats. Single and divided doses of NMU were evaluated for this purpose in 4-week-old rats of both sexes. Rats received iv injections of either 0.2 mmol NMU/kg (body wt) once or 0.05 mmol NMU/kg (body wt) for 4 weeks (1 injection/wk), followed by or concurrently with PB (0.05% in drinking water) that was continued until the termination of the experiment. Half the rats were killed at 52 weeks and survivors at 80 weeks. At 52 weeks, PB given subsequent to NMU or concurrently with divided doses of NMU significantly enhanced the incidence of thyroid follicular tumors only in male rats. This sex difference in thyroid tumorigenesis was somewhat less pronounced in animals killed at 80 weeks. Only 1 liver cell adenoma occurred in males and none in females given NMU alone. PB given concurrently with divided doses of NMU enhanced the yield of hepatocellular foci/cm2 but had no significant effect on hepatic tumor development. Subsequent exposure to PB, however, significantly promoted hepatocarcinogenesis in rats of both sexes given NMU in divided doses; 50% of males and 40% of females given NMU (0.05 mmol/kg, administered four times) followed by PB had hepatocellular adenomas and carcinomas by 80 weeks. PB did not affect the incidence of any other kind of neoplasms seen in NMU-initiated or control rats. These lesions included squamous cell neoplasms of the skin, oropharynx, and forestomach; nonsquamous epithelial tumors of mammary gland, pituitary body, intestinal mucosa, and urinary bladder; tumors of the central and peripheral nervous system; and mesenchymal tumors of the kidney. A sequence of multiple low doses of NMU appeared to be a convenient and useful systemic, multitissue, tumor-initiation regimen for systematic investigation of organ-specific tumor promotion in rats.     

Influences of diethylnitrosamine on longevity of surrounding hepatocytes and progression of transplanted persistent nodules during phenobarbital promotion of hepatocarcinogenesis

The possibility that phenobarbital (PB) selectively promotes liver nodule development by decreasing survival of surrounding hepatocytes previously exposed to diethylnitrosamine (DENA) was evaluated. Livers of F-344 rats were labelled with [3H-methyl]-thymidine (3H-TdR) during developmental or regenerative growth. Neonatal rats given 3H-TdR between days 3 and 12 were subjected at 12 weeks of age to partial hepatectomy (PH) followed 24 hr later by DENA (10 mg/kg) or saline. Subsequent administration of PB (0.1% in drinking water) for 28 weeks reduced total liver label to 46 +/- 10% (saline group) or 40 +/- 4% (DENA group). Adult male rats initiated with DENA (200 mg/kg) and later labelled with 3H-TdR after PH also lost total liver label during 28 weeks' promotion with PB (0.05% in water) at rates similar to those exhibited by noninitiated rats given PB, and by DENA-treated or control rats not given PB. Large persistent (12 weeks) liver nodules generated by DENA in the Solt-Farber model were transplanted as small fragments into the spleens of syngeneic rats previously given 0, 100 or 200 mg/kg of DENA. Subsequent exposure to PB (0.05% in drinking water for 40 weeks) or Aroclor 1254 (6 X 300 mg/kg per month) promoted nodule and cancer development only in livers of DENA-initiated recipients. Surviving transplanted nodules remained as small microscopic clusters even after 40 weeks of promotion. However, PB increased transplant survival (50% vs. 21% in controls) whereas Aroclor reduced it to 8%. These findings indicate that promotion of liver nodules by PB occurs without enhanced mortality of surrounding hepatocytes previously damaged by DENA. They further suggest that promoters such as PB and PCBs do not directly influence the progression of established persistent nodules.     

Comparison of lesions induced in the Syrian golden hamster by diethylnitrosamine, dimethylhydrazine, and dibutylnitrosamine: influence of subsequent butylated hydroxyanisole treatment

The target organ specificity of the carcinogens diethylnitrosamine [(DENA) CAS: 55-18-5], dimethylhydrazine [(DMH) CAS: 57-14-7], and dibutylnitrosamine [(DBN) CAS: 924-16-3] was examined in Syrian golden hamsters. Groups of male animals were given 8 weekly injections of one of these carcinogens and then were maintained on a basal diet or a diet supplemented with 1% butylated hydroxyanisole [(BHA) CAS: 25013-16-5], or they were given the respective carcinogens in the drinking water until they were sacrificed at week 34. While DENA specifically induced tracheal polyps and hepatocellular foci and nodules, DMH administration was associated with development of both hepatocellular and hemangiocellular liver lesions as well as forestomach papillomas and adenocarcinomas of the large intestine. DBN induced lesions in the urinary bladder, forestomach, and trachea, in addition to a few preneoplastic foci in the liver and lungs. In all organs studied, preneoplastic and neoplastic populations were essentially similar to those observed in other experimental animals, with colon and tracheal lesions demonstrating alteration in polysaccharide metabolism. While inhibiting the development of hepatocellular lesions, especially in the group initiated with DENA, and while itself inducing extensive papillomatous forestomach hyperplasia, BHA administration did not exert a significant modifying influence on tumorigenesis in other organs. The present results demonstrate the efficacy of Syrian golden hamster studies for investigation of comparative neoplasia. Of particular interest in this respect were differences in the degree of phenotypic instability demonstrated by glutathione S-transferase placental form-positive foci induced by the 3 carcinogens, which indicated a possible qualitative variation in "initiation."     

Effects of phenobarbital and secondary bile acids on liver, gallbladder, and pancreas carcinogenesis initiated by N-nitrosobis (2-hydroxypropyl)amine in hamsters

The effects of dietary administration of phenobarbital [(PB) CAS: 50-06-6] or the secondary bile acids, deoxycholic acid [(DCA) CAS: 83-44-3] and lithocholic acid [(LCA) CAS: 434-13-9], on tumorigenesis in the liver, gallbladder, and pancreas were investigated in male Syrian golden hamsters after carcinogenic initiation by N-nitrosobis(2-hydroxypropyl)amine [(BHP) CAS: 53609-64-6]. BHP [500 mg/kg (body wt)] was injected sc once weekly for 5 weeks. The animals were then maintained on a basal diet or a diet containing either 0.05% PB, 0.1% DCA, 0.5% DCA, or 0.5% LCA for 30 weeks. DCA enhanced the development of cholangiocarcinomas without influencing that of hepatocellular lesions. PB promoted the induction of hepatocellular carcinomas but not that of cholangiocarcinomas. LCA was without effect on the induction of either hepatocellular carcinomas or cholangiocarcinomas. DCA at a dose of 0.5% enhanced the induction of polyps in the gallbladder. Both DCA, at a dose of 0.1%, and LCA significantly enhanced the induction of pancreas carcinomas. PB had no effect on the induction of polyps in the gallbladder or of pancreas carcinomas. These data document that different tumors may be differentially promoted following initiation with a common carcinogen.     

Effect of coadministration of phenobarbital sodium on N-nitrosodiethylamine-induced gamma-glutamyltransferase-positive foci and hepatocellular carcinoma in rats

The effect of concurrent administration of phenobarbital on the hepatocarcinogenicity of N-nitrosodiethylamine (diethylnitrosamine; DENA) in rats was investigated by determination of the incidence of gamma-glutamyltransferase (gamma-glutamyltranspeptidase) (GGT)-positive foci and liver tumors. Male outbred Sprague-Dawley rats received either a weekly oral dose of DENA (0.08 mol/kg), phenobarbital sodium (500 ppm) in their drinking water, or DENA and phenobarbital sodium concurrently. After 16 weeks, only the animals treated concurrently with DENA and phenobarbital sodium had GGT-positive foci (3.65 foci/cm2). At 30 weeks, the group treated with DENA and phenobarbital sodium exhibited more foci (23.6 foci/cm2) compared to the group that received only DENA (3.08 foci/cm2). The average size of foci in both of the DENA-treated groups was the same. The tumors in the group that received DENA plus phenobarbital sodium showed a greater incidence of GGT activity compared to the tumors in the DENA group. Under the conditions of this study the incidence of GGT-positive foci did not predict the incidence of hepatocellular carcinomas.     

Influences of different polychlorinated biphenyls on cytocidal, mitoinhibitory, and nodule-selecting activities of N-2-fluorenylacetamide in rat liver

The influences of different polychlorinated biphenyl (PCB) isomers and congeners on distinct hepatotoxic responses to the hepatocarcinogen N-2-fluorenylacetamide [(2-FAA) CAS: 53-96-3] were examined in F344 rats. Cytocidal toxicity of 2-FAA (25-400 microM), determined by lactate dehydrogenase release during 20 hours in primary monolayer cultures of isolated rat hepatocytes, was reduced by in vivo pretreatment with either phenobarbitone [(PB) CAS: 50-06-6] or 2,2',4,4',5,5'-hexachlorobiphenyl (HCBP), a PB-type PCB inducer. However, cytocidal toxicity of 2-FAA was substantially potentiated by either 3-methylcholanthrene [(MCA) CAS: 56-49-5] or 3,3',4,4'-tetrachlorobiphenyl [(TCBP) CAS: 32598-13-3], an MCA-type PCB. In the same cell culture assays, all four pretreatments similarly reduced cytocidal toxicity of N-hydroxy-N-2-fluorenylacetamide (0.32-32 microM; CAS: 53-95-2). By comparison, pretreatments with either the PB-type or MCA-type PCB's (50-200 mumol/kg) diminished mitoinhibitory toxicity of 2-FAA in vivo, as measured by hepatic regenerative growth and hepatocyte labeling indices 7 days after partial hepatectomy (PH) in rats given 3 consecutive daily doses of 2-FAA (20/mg/kg/day) before PH. This regimen of 2-FAA and PH promoted rapid selective growth of gamma-glutamyltranspeptidase-positive (gamma-GT+) nodules at 2 and 4 weeks after PH in rats previously given an initiating hepatocarcinogen, diethylnitrosamine [(DENA) CAS: 55-18-5]. However, various PCB's, including 2,2',4,4',5,5'-HCBP, 3,3',4,4'-TCBP, 2,2',4,4'-TCBP, 2,2',5,5'-TCBP, and the commercial mixture Aroclor 1254, each given as a single dose of 50 mumol/kg by gavage 10 days after DENA and 7 days before 2-FAA, all reduced the size of 2-FAA-selected gamma-GT+ nodules during the 4-week period after PH. These results indicate that, in spite of predictable inducer-specific opposite influences of different types of PCB's on cytocidal toxicity of 2-FAA, all PCB's similarly reduce nodule selection by 2-FAA in initiated livers. Reduced growth of 2-FAA-selected nodules correlated with the consistent ability of all PCB's to enhance regeneration of liver mass after 2-FAA and PH.     

The inhibition by methionine and choline of liver carcinoma formation in male C3H mice dosed with diethylnitrosamine and fed phenobarbital

The ability of the dietary methyl donors methionine and choline to inhibit the carcinogenic and tumor-promoting effects of phenobarbital (PB) in the livers of male weanling C3H mice was examined. The mice were fed a commercial rodent diet with or without 0.05% PB. Thirty animals from each set received the diet with either: (1) no dietary supplementation, (2) an additional 1.0% choline chloride, (3) 1.5% DL-methionine or (4) both 1.5% DL-methionine and 1.0% choline chloride. Additional groups of 30 animals with the same eight dietary and PB-treatment regimens described above were given a single initiating dose of 150 mg diethylnitrosamine (DENA)/kg body wt dissolved in saline, or the saline solution only, 1 week prior to the start of PB feeding. The 16 treatment groups were fed their respective diets for 12 months. Statistical trend analysis showed that increasing levels of supplemental methyl donors gave highly significant protection in PB-treated mice (P less than 0.01). The incidence of liver carcinomas in the four dietary groups not receiving PB or DENA varied from 0 to 7%. The PB-treated animals not receiving an initiating dose of DENA developed hepatocellular carcinomas (HCCs) at incidences of 79% in group 1 animals, 74% in group 2 animals, 60% in group 3 animals, and 31% in group 2 animals respectively. Thus, incidence of HCCs in group 4 was significantly lower than in groups 1, 2 or 3 (P less than 0.01). However, the total incidence of liver tumors (adenomas plus carcinomas) was about the same in all DENA or PB-treated groups. Thus, dietary supplementation with methyl donors increased the proportion of animals bearing liver adenomas as their most advanced hepatic lesion in PB-treated mice. In DENA-treated mice fed PB, dietary supplementation with methionine and choline protected against the formation of liver carcinomas (P less than 0.02); however, methionine and choline had no significant effect on liver tumor formation in mice fed the PB-free diets. Methionine and choline supplementation gave significant protection against HCC metastases in the lungs of the tumor-bearing mice in groups initiated with DENA followed by PB promotion. These results support the hypothesis that PB exerts it tumorigenic activity in mice at least in part through a physiological insufficiency of labile methyl groups.     

P-450 enzyme induction by 5-ethyl-5-phenylhydantoin and 5,5-diethylhydantoin, analogues of barbiturate tumor promoters phenobarbital and barbital, and promotion of liver and thyroid carcinogenesis initiated by N-nitrosodiethylamine in rats

Male F344/NCr rats, 6 wk old, were fed 500 ppm of phenobarbital (PB) or equimolar doses of either 5-ethyl-5-phenylhydantoin (EPH) or 5,5-diethylhydantoin (EEH) in diet for 2 wk and hepatic cytochrome P-450-mediated alkoxyresorufin O-dealkylase and aminopyrine N-demethylase activities were determined. Both PB and EPH greatly increased P-450-mediated enzyme activities in rat liver while EEH was ineffective. To evaluate the hydantoins as tumor promoters, 5-wk-old male F344 rats were given a single i.p. injection of 75 mg N-nitrosodiethylamine/kg body weight. Beginning 2 wk later, they were placed either on normal diet or diet containing 500 ppm of PB or equimolar doses of EPH or EEH for the remaining experimental period. Control groups received an i.p. injection of saline followed by each of the test diets. Animals were sacrificed at either 52 or 78 wk. PB and EPH significantly enhanced the development of hepatocellular foci and hepatocellular adenomas at 52 wk and hepatocellular carcinomas at 78 wk in N-nitrosodiethylamine-initiated rats. Neither the incidence of hepatocellular neoplasms nor the number and size of hepatocellular foci was significantly increased by EEH. At 78 wk, both PB and EPH enhanced the development of thyroid follicular cell neoplasms in N-nitrosodiethylamine-initiated rats while no such enhancement was observed with EEH. Thus, EPH, a long-acting sedative/anticonvulsant, like the structurally similar PB, promoted hepatocellular and thyroid follicular cell carcinogenesis and induced the PB-inducible form(s) of cytochrome P-450 (P-450b) in rats. In contrast, EEH unlike barbital failed to promote hepatocellular and thyroid follicular cell carcinogenesis and also failed to induce PB-inducible form(s) of cytochrome P-450 in rats.     

Phenobarbital promotion in diethylnitrosamine-initiated infant B6C3F1 mice: influence of gender

Phenobarbital (PB) promotes hepatic tumorigenesis when chronicallyadministered to male B6C3F1 mice after initiation with diethylnitrosamine(DENA) at 30 days of age. In contrast, when male B6C3F1 micewere initiated with DENA at 15 days of age, an inhibition ofhepatic tumorigenesis occurred. The present study was undertakento evaluate the Influence of gender on the inhibiting abilityof PB in the 15 day old DENA-initiated B6C3F1 mouse. Mice wereinjected with either DENA (5 µg/g) or saline at 15 daysof age. At weaning mice were given either PB (500 p.p.m.) containingdrinking water or deionized drinking water for 24 weeks. Malemice treated with DENA and PB demonstrated a significant decreasein the number of hepatocellular adenomas compared to males receivingDENA only. In contrast, females exposed to DENA and PB exhibitedan enhancement of hepatic adenoma number compared to those receivingonly DENA. In an additional experiment, individual preneoplastkfoci from male and female B6C3F1 mice initiated with DENA at15 days of age were examined for their responsiveness to theniitogenic stimuli of PB. Mice were exposed to either PB-containingor PB-free drinking water for 7 days. In non-PB treated malesand females, preneoplastk hepatocytes demonstrated higher ratesof DNA synthetic labelling compared to normal hepatocytes withno gender difference noted. Males exposed to PB exhibited increasedlevels of DNA synthesis in normal cells but not in preneoplastkfoci. Females treated with PB, however, demonstrated significantincreases in DNA synthesis in both preneoplastk and normal hepatocytescompared to non-PB treated females and PB-treated males. Thesefindings suggest that in male mice initiated with DENA at 15days of age, the preneoplastk foci are refractory to the proliferativeeffects of PB which may account for the observed inhibitionof hepatic tumorigenesis by PB in this mouse strain.     

Hepatic foci of cellular and enzymatic alteration and nodules in rats treated with clofibrate or diethylnitrosamine followed by phenobarbital: their rate of onset and their reversibility

The histologic appearance and cytochemical characteristics of foci of hepatic cellular alteration, hepatic nodules, and hepatocellular carcinomas occurring in male Sprague-Dawley rats treated with the hypolipidemic agent clofibrate (CAS: 637-07-0), with phenobarbital (CAS: 50-06-6), or with diethylnitrosamine [(DENA) CAS: 55-18-5] followed by phenobarbital were studied after treatment periods from 1 month to 2 years. Rats treated with clofibrate revealed foci of cellular alteration that were more often basophilic and occurred slightly sooner (wk 42) than those in untreated controls (wk 60). Of 36 rats that had received 68 or more weeks of continuous clofibrate, 19 had hepatic nodules. Of the 11 nodules examined cytochemically, none was gamma-glutamyltransferase (gamma-GT) positive and 2 were positive to glucose-6-phosphate dehydrogenase (G-6-PD) under oxygen. In rats withdrawn from clofibrate for 16-18 weeks after 68-95 weeks of clofibrate, 0 of 14 had nodules. In several of these rats zones of hepatic scarring were observed, suggesting the reversibility of the nodules. Phenobarbital alone had little effect on the incidence of foci of cellular alteration, although the number of gamma-GT-positive foci was increased. DENA followed by phenobarbital led to the early appearance of foci of cellular alteration (from wk 4), of nodules (from wk 13), and of hepatocellular carcinomas (from wk 26). gamma-GT activity was raised in most of these nodules and carcinomas, while G-6-PD activity was raised in only 3 of 9 nodules but in all 9 carcinomas examined. DENA-phenobarbital given for 13 or 26 weeks followed by withdrawal of phenobarbital for 28 and 26 weeks, respectively, produced an essentially similar pattern of lesions. In view of the growing recognition of the nonspecificity gamma-GT as a marker of carcinogen-initiated foci, the value of G-6-PD (under oxygen) as a marker merits further investigation.     

Inhibition by phenobarbital and lack of effect of amobarbital on the development of liver tumors induced by N-nitrosodiethylamine in juvenile B6C3F1 mice

The effects of phenobarbital (PB) and amobarbital (AB) on the rate of development of hepatocarcinogenesis induced by N-nitrosodiethylamine (DEN) were studied in mice. Groups of 40 B6C3F1 male mice were injected i.p. at 15 days of age with 5 micrograms DEN/g body wt. Beginning at 4 weeks of age, DEN treated groups were given either normal drinking water or water containing either 0.05% PB or AB for up to 36 weeks. DEN alone induced multiple focal hepatic lesions including hepatocellular foci, hepatocellular adenomas and trabecular carcinomas. Subsequent exposure to PB had a suppressing effect on DEN-induced hepatocarcinogenesis. Hepatocellular foci in PB-exposed mice were significantly smaller in size (area) and fewer in number throughout the study. Also, PB treatment either prolonged the latency period or significantly slowed the rate at which hepatocellular tumors developed in these mice. No such effects were seen in AB-exposed mice; AB neither inhibited nor promoted the development of focal hepatic lesions in DEN-pretreated mice. Possible mechanisms responsible for the inhibition of DEN-induced hepatocarcinogenesis include the feminizing effects of perinatal administration of PB.     

贞芪扶正胶囊对大鼠实验性肝癌发生发展的影响

目的 :观察贞芪扶正胶囊在化学致癌剂二乙基亚硝胺 (diethylnitrosamine ,DENA)诱发大鼠肝癌过程中 ,对肝癌发生、发展的影响。方法 :实验分为 4组 ,除单纯致癌组 (D组 )外 ,其余各组大鼠均在给予致癌剂前 (A组 )、同时 (B组 )或后 (C组 )加给贞芪扶正胶囊。在给予致癌剂 2 0周后取肝脏作肉眼、光镜和电镜检查。结果 :单纯致癌组大鼠均形成肝癌。服用贞芪扶正胶囊的各组情况则有较大差异 ,A组大鼠显示致癌剂对肝脏毒性损伤明显低于其他各组 ,并且当其他各组动物均已形成肝癌甚至已有转移时 ,此组中仅有少数大鼠形成肿瘤 ,多数大鼠则仅出现DENA毒性刺激而形成的细胞增生结节。结论 :贞芪扶正胶囊有预防或延缓肝癌发生的作用     

Neoplastic response of F344 rats and B6C3F1 mice to the polymer and dyestuff intermediates 4,4'-methylenebis(N,N-dimethyl)-benzenamine, 4,4'-oxydianiline, and 4,4'-methylenedianiline

Feeding 4,4'-methylenebis(N,N-dimethyl)benzenamine [CAS: 101-61-1; 4,4'-methylenebis(N,N-dimethylaniline)] to inbred F344 rats increased the incidence of thyroid lesions (hyperplasia, adenomas, and carcinomas) in both sexes, especially in the female rats. 4,4'- Oxydianiline (CAS: 101-80-4) in the diet increased adenomas and carcinomas in the thyroid gland and neoplastic nodules and carcinomas in the liver of male and female F344 rats. In addition to increasing thyroid adenomas in females and hepatocellular adenomas or carcinomas in male and female B6C3F1 mice, 4,4'- oxydianiline increased adenomas of the harderian gland in male and female mice. 4,4'- Methylenedianiline (CAS: 101-77-9) in the drinking water increased neoplasms of the thyroid gland and liver in F344 rats and B6C3F1 mice.     

Test of catechol, tannic acid, Bidens pilosa, croton oil, and phorbol for cocarcinogenesis of esophageal tumors induced in rats by methyl-n-amylnitrosamine

Catechol (CAS: 120-80-9), given in drinking water to rats, was the most effective of 5 phenols in enhancing [3H]thymidine incorporation [( 3H]dThd-l) into esophageal DNA. To test for esophageal cocarcinogenesis, groups of 30 male MRC-Wistar rats received 3 weekly ip injections of 25 mg methyl-n-amylnitrosamine [(MNAN) CAS: 13256-07-0]/kg. From the time of the first MNAN injection, each group also received catechol, tannic acid (CAS: 1401-55-4), dried leaves of Bidens pilosa L., or croton oil (CAS: 8001-28-3) (respectively, 2, 10, 50, and 2 g/kg semipurified diet), or were given 20 ip injections of 6 mg phorbol (CAS: 17673-25-5)/rat. The rats were killed after 20-45, 46-52, or 53-72 weeks (subgroups A, B, and C). In the group given MNAN alone, most esophageal papillomas developed during the first 45 weeks. Both catechol and B. pilosa significantly increased the esophageal papilloma multiplicity (No. of papillomas/rat) induced by MNAN, with a maximum tumor yield of 2.2 times that in the corresponding subgroup treated with MNAN alone. Papilloma multiplicity increased from subgroup A to subgroup C in the MNAN plus B. pilosa group but not in the MNAN plus catechol group. No tumors were induced by the test cocarcinogens given without MNAN. We concluded that a) an increased esophageal [3H]dThd-I indicates potential cocarcinogenicity and b) catechol and B. pilosa were weak esophageal cocarcinogens. These results support the view that catechol in cigarette smoke and B. pilosa as eaten in South Africa contribute to the etiology of human esophageal cancer.     

Effect of phenobarbital on diethylnitrosamine and dimethylnitrosamine induced hepatocellular tumors in male B6C3F1 mice

The effect of the type of carcinogen initiator on the ability of phenobarbital (PB) to promote hepatic tumor formation in 15-day-old initiated male B6C3F1 mice was evaluated. Fifteen-day-old male B6C3F1 mice were divided into 6 groups of 10 mice each. Groups 1 and 2 received a single intraperitoneal (i.p.) injection of diethylnitrosamine (DENA) (5 micrograms/body wt). Groups 3 and 4 received a single i.p. injection of diethylnitrosamine (DENA) (5 micrograms/g body wt). Groups 3 and 4 received a single i.p. injection of dimethylnitrosamine (DMNA) (5 micrograms/g body wt). Groups 5 and 6 received a single i.p. injection of saline. At weaning (28 days of age), mice in groups 2, 4 and 6 received PB (500 mg/ml) in their drinking water. Mice in groups 1, 3 and 5 received deionized drinking water. Drinking water treatment continued for 24 weeks at which time mice were sampled. At sampling, mice were examined for hepatic tumors by histology. Mice in groups 5 (no treatment) and 6 (PB only) did not exhibit hepatic tumors. Groups 2 (DENA + PB) displayed a decrease in hepatic adenomas from that of group 1 (DENA only), confirming previous observations. Treatment with DMNA and PB (group 4), however, resulted in a significant increase in both hepatic adenoma incidence and number over that of DMNA only (group 3) treated mice. The promoted adenomas appeared to be predominantly eosinophilic in appearance. The type of initiator therefore appears important in determining if 15-day-old initiated male B6C3F1 mice respond to the promotion effects of PB.     

Strain differences in hepatic tumor promotion by phenobarbital in diethylnitrosamine- and dimethylnitrosamine-initiated infant male mice

The effects of phenobarbital (PB) on hepatocellular carcinogenesisin three strains of nitrosamine-initiated infant male mice wereevaluated. Fifteen-day-old C57Bl/6NCr1BR (C57Bl), C3H/HeNCr1BR(C3H) and B6C3F1 mice were treated with a single i.p. injectionof either diethylnitrosamine (DENA) (5 µg/body wt), dimethylnitrosamine(DMNA) (5 µg/body wt) or saline. One-half of the treatedmice received PB via the drinking water (500 mg/l) for 24 weeks.The remaining treated mice were given deionized drinking water.Mice were killed at 28 weeks of age and hepatic lesions wereevaluated. Only animals that received DENA or DMNA exhibitedtumors. C3H mice treated with DENA + PB demonstrated a significantincrease in hepatic adenoma number compared to C3H mice exposedto DENA only. Conversely, B6C3F1 males treated with DENA + PBexhibited a significant decrease in the number of hepatic adenomascompared to B6C3F1 males treated with DENA alone. No changewas noted in adenoma size in B6C3F1 mice treated with DENA +PB from those receiving DENA only. Chronic PB exposure of C57B1males previously treated with DENA had no effect on hepaticadenoma number or size. C3H mice treated with DMNA + PB displayedan increase in both adenoma size and adenoma number comparedto C3H mice receiving DMNA only. Similarly, in B6C3F1 mice,PB treatment increased both the adenoma incidence and adenomanumber in DMNA initiated mice. PB had no effect on hepatic adenomaincidence or number in DMNA-treated C57B1 mice. These data suggestthat the ability of PB to promote hepatic tumorigenesis in the15-day-old initiated mouse is dependent on both the strain ofthe mouse and the initiating chemical carcinogen.     

Dose-response relationship of phenobarbital promotion of diethylnitrosamine initiated tumors in rat liver

The dose-response relationship was determined in rats for the enhancement by phenobarbital of diethylnitrosamine (DENA)-initiated neoplastic nodules and hepatocellular carcinomas. Male Sprague-Dawley rats received a single oral dose of either 80 mg/kg DENA or water. Seven days later, the animals were divided into groups that started to receive 0, 62.5, 125, 250, 500 or 1000 ppm sodium phenobarbital in the drinking water. Animals from each group were killed at 48 and 70 weeks after the DENA. No significant difference was observed in the low response of neoplastic nodules among the DENA-initiated groups. The incidence of DENA-initiated hepatocellular carcinoma was enhanced at 70 weeks by 250, 500 and 1000 ppm sodium phenobarbital but not by 62.5 or 125 ppm sodium phenobarbital. Equal enhancement of the incidence of hepatocellular carcinomas was obtained with 250, 500 and 1000 ppm sodium phenobarbital. In non-DENA-initiated rats, phenobarbital did not induce neoplastic nodules or hepatocellular carcinomas. Our results suggest that a daily dose of at least 250 ppm sodium phenobarbital is required in order for it to exert tumor promoting activity.